Next Generation Science Standards
Scientific & Engineering Practices
Asking Questions & Defining Problems
Developing & Using Models
Planning & Carrying Out Investigations
Analyzing & Interpreting Data
Mathematics & Computational Thinking
Construct Explanations & Design Solutions
Engaging in Argument from Evidence
Obtain, Evaluate, Communicate Information
Engineering, Technology & Applications of Science Disciplinary Core Ideas
ETS1A - Defining & Delimiting an Engineering Problem
ETS1B - Developing Possible Solutions
ETS1C - Optimizing the Design Solution
ETS2A - Interdependence of Science, Engineering & Technology
ETS2B - Influence of Science, Engineering & Technology on Society & the Natural World
ETS1A - Defining & Delimiting an Engineering Problem
ETS1B - Developing Possible Solutions
ETS1C - Optimizing the Design Solution
ETS2A - Interdependence of Science, Engineering & Technology
ETS2B - Influence of Science, Engineering & Technology on Society & the Natural World
Physical Science Disciplinary Core Ideas
PS1A - Structure & Properties of Matter
PS1B - Chemical Reactions
PS1C - Nuclear Processes
PS2A - Forces & Motion
PS2B - Types of Interactions
PS2C - Stability & Instability
PS3A - Definitions of Energy
PS3B - Energy: Conservation & Transfer
PS3C - Energy & Forces
PS3D - Energy in Chemical Processes & Life
PS4A - Wave Properties
PS4B - Electromagnetic Radiation
PS4C - Information Technologies
PS1A - Structure & Properties of Matter
PS1B - Chemical Reactions
PS1C - Nuclear Processes
PS2A - Forces & Motion
PS2B - Types of Interactions
PS2C - Stability & Instability
PS3A - Definitions of Energy
PS3B - Energy: Conservation & Transfer
PS3C - Energy & Forces
PS3D - Energy in Chemical Processes & Life
PS4A - Wave Properties
PS4B - Electromagnetic Radiation
PS4C - Information Technologies